Injection molding device



' Nov. 25', 1947,

' YENTOR Thqmas F S iacy BY I I ATTORNEYS Patented Nov. 25, 1947 Thomas'F. Stacy; Piqua, Ohio; assi'gno'r to; The" French- Oil Mill Machinery Company, Piqua;

Application April 19; 1943; Serial No; 483 556 7 Claims.

This invention relates to" molding and more particularly towhat is-l'm'own as-in-jection molding? by whicli a liquid molding materialis injected into a cavity of a mo'ld where the materialhardens;

The hardening of such molding material iscommonly' caused or accelerated by the addition to-the moldingmaterial o'fa suitable agent, and

such: agents; in som'e' instar'ices' are called hardening'ac'celerators orcatz'aulysts. Itis very desirable th'atthe timefor hardening ofthe-molding mate-- rialwithinthe cavityof the' moldbe reduced as much aspossible in' order to increa'se the possible output of molded articles by the'u'seof anymo'ld'. Hereto'fore; the addition: oiha'rd'ehing or acc'e'lerating agents: (Jr-"catalysts insubstantial I pro ortionsito liquid molding materials-raised the-serious danger: of rapid? hardening of themolding mate--" rial: before the cavityxcould'be entirelyfilled; and the difficulty of obtaining a uniform mixing by the hardening agent with: theFresin or molding material.

An objectiof this invention" isf't'o provide appm ratusfor "improving themolding of' resinous arti: cles, v particularly from the sc -called plastidmaterials;. witlr which a more effective mixing of the' resin with the hardening} agent; accelerator or' catalysti may be =obtained b'eforethe molding material reach-es its-finalpositio'n in' the mold cavity;

with:whlch relatively'large"amounts of a hardern ingt agent; acceleratoror catalyst may be added to themolding materialwithoutdanger of the with which: danger: of pluggin'g of the molding eppa'--' ratus th'l'ollgh unintended hardening of the rriix:

molding material setting prematurely;

ture: will: be avoidedi with: which the" passages through which thematerial's flow to the' mold cavity may be cleared of any 'hardened molding material when: theinjection nozzle is removed and the die is opened to remove the molded arti cles; and which will be relatively'simple; practio'a'l;

efficient; compact and "inexpensive;

Other objects and a'dvantageswill be apparent from the following description of two" embodi' merits -"f the invention',-- and the novel features of: the" invention will 1 be particularly pointed out"- hereinafter in' connection with the appended claims; I

In the accon'ipanying drawings:-

Figt l is a sectiorial elevation through a-moldj and an injectionn'ozale in operative relation to the mold, and illustrating one example ofappa ratusifor practicing the invention.

Eig 2 is ia s'imilar seotional elevation, but show inga slight i-modifie'a tion 1 of T the apparatus.

In impending pplication serial NO. 418,640;

filed November 1 2, 1941mm I different streams of liquid material aredischarged through separate passages atthe' co'nv'e'X ends ofan injection nozzle into a common spruethat carries the combined streams to th'e-mold cavity Apparatus of that type' for delivering two separate streams ofliquid simultaneously and in proportionate a-mounts through a common nozzle may be employed inth'-pT-esehl? instance to deliver a stream of liquid nl'oldling material and aseparate 1 and ro ortional stream-- o'i ahar-deiiingagent} accelerator or cata-- lyst which; when l'fiiiied With the molding mate'- ria'l; will cause or accelerate the" hardening of of" time when the mixture is within the mold cavity; It will beuhderstood, however, that-ref ere'nc'e to said'copehdingapplication is'made only byway of example or one form of-appa-ratusthat'- maybe" employed for delivering simultaneously twoproportional streamssoi liquids, 1 one for resin"- arid'the' other for'th'e hardening-agent; and that othersuitable apparatus for accomplishing this" purpose may also be employed. A Referrin'g'novv to Fig: 1-,-the bo'd'y'ofmoldAris and the peripher'yof this post airs spaced slightly from the peripheral'wall of the section of the some 5 -ir'ito'which it extends; so as to provide'a" tubular passage f'rorn'the seat 4 along the'side' fc'ir'med' of' 'two sections I and 2} disposed face to'-' faceand removably clamped together, as usual" with divided molds for the molding of plastic resins and similar"materials. The mold body is} provided with'a mold'cavityt ofsuitable size and configurationwhich; opens into the parting face" between themoldsection's- I- and 2,;0 that" after air article has'be'en mjo'ldddhalcavity; the sepa'ra tionof the sections I 'and12f willexpose the article fortremor/e1nomthemom; one of the moldsec-" tions', such as the-section 2-, is'also' providedwith ase'at 4 in its outer face which is connectedwithj the"cavity'- 3 bya sprue 5- extending from these'at' lth'rough the-section 2' to thepartihg' line between parting" lineor-"abutting fa'ce'of the section I telev,scop'irigly-into thesprue 5 towards the seat 4;

Thefreeend'face l of the fpost'fiforms one poitionof the seatwhich i this example, is a'concave seat or recess in theouter" face" of the sec tion" 2) One orbothof the mold sections, such" as'*'thesectionj 22 is provided around thebasefof the post 6"With an annular chamber B'into which such r'ndlding material Within a)- short intervalthe mold "sections; and then alongthe parting line" tothe' cavity 3. The moldlsection l is'provided' with a projecting post 6"whicheXtends from the" the tubular sprue passage surrounding the side wall of the post 6 opens in a direction along the peripheral side wall of the chamber 8. The portion 9 of the sprue between the mold cavity 3 and the chamber 8 opens into this chamber 8 in a direction along another Wall of the chamber 8, or at a distance from the opening into that chamber of the tubular part of sprue 5. In other words, the portions or zones of the sprue 5 which open into the chamber 8 open into that chamber in directions along diiferent wall portions of that chamber, in different directions and at spaced peripheral zones of that chamber, to form a whirlpool, so that the molding liquid passing along the tubular part of the sprue will, in entering the chamber 8, swirl or eddy therein before it passes out through the section 9 of the sprue to the mold cavity 3. In other words, the abrupt change in direction of flow of the molding material after it enters the chamber 8 will cause it to swirl or eddy in seeking the outlet from that chamber which leads to the mold cavity.

The injection nozzle I is provided with a peripheral contact surface zone II which engages with a similar peripheral zone of the seat 4 adjacent the outer face of the section 2, and this peripheral contact definitely seals the nozzle III to the mold at the seat 4, when the nozzle is forced against said seat. The contact zone of the seat which is engaged by the nozzle I0 is between the entrance end of the sprue and the outer face of the section 2, so that any liquids delivered by the nozzle I0 must pass into the sprue 5, The.

nozzle Ii) is provided with a relatively large passage or channel I2 through which a moldin liquid, such as a plastic resin in liquid or fluid form, may be delivered to the entrance end of the sprue 5. The nozzle III also has therein a smaller and separate channel or passage I3 through which the resin hardening agent, accelerator or catalyst in liquid form may be delivered to the sprue 5, proportionally and simultaneously with the delivery of the liquid resin through the passage I2.

The central core I4 of the nozzle which separates the passages I2 and I3, preferably extends somewhat beyond the end of the passage I2 into close proximity to but slightly spaced from the free end face I of the post 6, so as to form with that free end face of the post 6, a relatively thin but broad passage I5 which connects the discharge end of the passage or channel I3 of the nozzle with the entrance end of the sprue 5 or the extension of the sprue 5 into the seat 4, The seat 4,-betWeen the contact zone which engages the nozzle I0 and the entrance to the sprue 5, is convergingly tapered or restricted, so that the liquid resin discharged by the passage I2 of the nozzle ID will be attenuated or formed into a tubular, relatively thinwalled stream of resin which passes along the sprue 5 surrounding the post 5 and into the chamber 8.

In this particular example, the end face I of the post 6 terminates a short distance from the entrance to the sprue 5, and the'end of the core I4 of the nozzle which may be of the same diameter as the post 5, also extends telescopingly into the entrance end of the sprue 5, so that the stream of resin discharged by the channel I2 of the nozzle is formed into a tubular, cylindrical, thin, shell-like stream before it passes the free end of the core I4. The passage I5 between the abutting end faces of the core I4 and the post 6, therefore opens into the sprue 5 in a direction at right angles thereto, so that the relatively thin,

4 broad stream of liquid molding resin moving along the sprue 5 will be intersected by a relatively thin, broad, fiat stream of the hardening agent, accelerator or catalyst which is discharged by thechannel I3 of the nozzle and delivered along the passage I5 into the sprue 5 at right angles to or crosswise of the direction of flow of the tubular stream of resin.

This abrupt and angular intersection of these two relatively thin, broad streams of liquid will cause a relatively thorough and uniform distribution of the hardening agent, accelerator or catalyst throughout the liquid resin, and as this liquid mixture move along the sprue 5, it will enter the chamber 8 in a direction along a wall thereof, or generally tangentially thereof and swirl in the chamber 8 before reaching and passing into the sprue section 9 which leads from the chamber 8 to the mold cavity 3. This ensures a thorough and uniform mixture of these two streams before they reach the mold cavity. 7 r

The thickness of the film or stream delivered through the passage I5 between the abutting end faces of the core I4 and post 5, one of the tubular streams passing along the outer periphery of the core I l in the sprue 5, may be made very small in order to insurea uniform or adequate mixing of the two streams. This thinness may be to any extent desired, and these streams may, for example, have a thickness of ,010 inch, or even .005 inch, The sprue section 9 may also be made of any desired degree of thinness in order to insure adequate mixing of the two streams before they reach the mold cavity 3.

. In the embodiment of the invention illustrated in Fig. 2, the arrangement is generally similar to I that shown in Fig. 1, except that the chamber 8a, which corresponds to the chamber 8 of Which I, is made approximately one-half in the mold section Ia and one-half in the mold section 2a. The chamber 3a is of generally annular form and circular in radial cross section. This places the line of part between the mold sections approximately in the plane of the longitudinal annulus axis of the chamber So, so that when the mold is opened, by separation of the sections, the hardened mixture in the chamber 8a may be easily removed from that chamber. This avoids any undercut anchorage of any hardened resin within the chamber 80.. The post 6a which corresponds to the post 6 of Fig. 1, instead of being cylindrical along its outside periphery, may if desired, be frusto conical, and the tubular portion of the sprue opens into the chamber 8a in a direction generally tangential to the radial cross section of the chamber 8a, which causes the entering mixture to swirl in the direction shown by the arrow I6 in Fig. 2. The se'ction9 of the sprue, which leads from the chamber 8a, in this instance willpreferably open at approximately right'angles to v a tangent to the radialcross section, which may increase the tendency of the enterin liquid to.

swirl before it finds the outlet therefrom into the sprue section 9 which leads to the moldcavity 3.

In this particular example, the entire seat area 40. may be generally arcuately concave and the central area of this seat may be further slightly recessed, as at H, to provide between it and the end of core I4 of the nozzle, the'relatively thin passage connecting the nozzle channels I2 and I3 with the sprue 5. The end face of the core I4 in this instance overlies the entrance to the sprue 5, so that the thin, broad annular stream of resin delivered to the channel I2 of the nozzle and the correspondingly shaped thin stream of the hardening. agent, accelerator or catalyst delivered through ther channel. I3 of thenozzle will intersecthead: on: while flowing in opposite directions and then undergo. anabrupt practically right angle change in: direction as the mixture of. streams enters the sprue 5*. The end faceof the core I4 is of. course spaced slightly from the bottom of the shallow recess l1 and the end face of the post. to, so that the-two'streams will be attenuated or converted. into relatively thin, broad.

streams before they intersect and pass along the sprueto themold cavity;

It will be understood that various-other changes direction of flow of the streams at the time of intersection, so as toobtain a thorough mixing by reason of. the intersection of the streams. llhis mixing is, then increasedby the flow along the sprue 5, through the chambers 8 or 8a and thence along, the thin sprue sections 9 to the mold cavity-3;

It is believed that the operation of the device will be clear from the foregoing description, and it. will be understood that after the mold cavity has been filled with streams of the-molding material or resin with the agent added thereto, and the mixture has hardened, the nozzle will be removed from the mold and the mold sections then separatedto removethe hardenedmolded article; Lt'will' be particularly noted that all of the passages through which theresin and agent flow, after junction, to the mold cavity, willsbe exposed by'a separation of. the-nozzle from the mold and the separation of the moldinto its sections,. so that all hardened'material in these passagesmay be easily and quickly removed therefrom. This eliminates danger of the different passages becoming plugged by hardened molding material,

since all hardened material is removed by the mere act of removing the molded article;

It. will be understood that various changes in the materials, details and arrangement of parts, which have been hereindescribed and illustrated in order to disclose two examples of the invention, may be made by those skilled in the art within the principle and scope of the invention as expressed in the appended claims.

I claim as my invention:

1. In injection molding apparatus, a mold hav-- ing a cavity and a passage leading thereto, said passage being annular in cross section in one zone thereof, means for deliveringto theout'er end of said passage, a stream ofmolding material in liquid form, and means for progressively delivering to said passage in said zone, peripherally therearound, an agent for accelerating the hardening of said molding material.

2. In injection molding apparatus, a mold body having therein a molding cavity the body being divided, through said cavity, into separable parts to provide for access to said cavity to remove molded objects, said body having a seat on the outer face of one of said parts and a sprue leading from said seat to said cavity, said sprue having a relatively broad, thin intermediate portion adjacent its entrance end and adjacent said seat, and a nozzle engageable along a peripheral area of its end face against said seat and exteriorly of said entrance end of said sprue, and having two separate conduits for different materials enclosed by said peripheral area and discharging through said end face towards said body, the

portion: of the end face of said nozzle between the discharge ends of said conduits being. spaced:

slightly from the adjacent face of saidv one part of said body to form,1w-ith the latter, a thin, relatively broad space connecting. thedischarge ends of said conduits, in the area encircled by saidseat, to each other and to said entrance endxof said sprue.

3'; In injection molding. apparatus, a mold body having: therein a molding cavity,-said body being divided, through said cavity, into separable parts to provide for access to said cavity to remove molded objects, said body having a seat on the outer face ofone of said parts and a sprue leading. from said seat to said cavity, the other of broad at its entrance end adjoining said seat and: a nozzle engageable along a peripheral strip area of its end face against said: seat and ex teriorily of. said entrance end of said sprue, and having two separate conduits for different materials enclosed by said strip area and discharging: through said end face towards the end face" of saidpost, the portion of the end face ofsaid nozzle between the discharge ends of said con-- duits being spaced slightly from theadjacent face of said post to form, with the latter, a thin relatively broad space connecting the discharge ends: of said conduits to each other and to said sprue.

4, In injection molding, apparatus, a mold body having therein a molding cavity, said: body being:

divided through said cavity into separable parts separationv of said parts, to said cavity, and a nozzle having a peripheral zone of its' end face engaging: against and removable from said seat encircling. the entrance end of said sprue, said: nozzle having separate internal passages opening. through theportion of its end face encircled by said peripheral zone, said end face having. at. least a portion thereof between the discharge ends of said nozzle passages and between said passages and the entrance end of said sprue, spaced from said post to provide a channel connecting said sprue and said nozzle passages and exposed by separation of said nozzle from said mold.

5. In injection molding apparatus, a mold body having therein a molding cavity and divided through said cavity into separable parts to provide for access to said cavity to remove molded objects, said body having a seat on the outer face of one of said parts and a sprue leading from said seat to said cavity, one of said parts having a post extending into and along a portion 7 having another portion thereof extending from adjacent the base of said post along the surface of separation of said parts to said cavity, and a nozzle having a peripheral zone of its end face engaging against and removable-from a zone of said seat encircling the entrance end of said sprue, said nozzle having separate passages opening through the portion of its end faceencircled by said peripheral zone, said. end face having at least a portion thereof between the discharge ends of said nozzle passages and between said passages and the entrance end of,

said sprue, spacedfrom said post to provide a channel connecting said sprue and said nozzle passages and exposed, by separation of said nozzle from saidmold, said body also having therein at-the surface of part and around the base of said post, achamber of greater cross. sectional area than the adjoining zones of said sprue, through which streams of fluid from the passages of said nozzle must pass in moving along'the sprue to said cavity'to increase mixing of said streams before they reach said cavity.

6. In injection molding apparatus, a, mold body having therein a molding cavity and divided through said cavity into separable parts to pro-. vide for access to said cavity to remove molded:

objects, said body having a seat on the outer face of one of said parts and a spru leading from said seat to said cavity, one of said parts having a post extendinginto and along a portion of said sprue to the entrance end of the latter, and with its end face facing outwardly along said sprue,

trance end of said sprue, said nozzle having separate passages opening through the portion of its end face encircled by said peripheral zone, said end face having at least a portion thereof be-:

tween the discharge ends of said nozzle passages and between said passages and the entrance end of said sprue, spaced from said post to pro vide a channel connecting said sprue and said nozzle passages and exposed by separation of said nozzle from said mold, said body also having therein at the surface of part and around the base of said post, a chamber of greater cross sectional area than the adjoining zones of said sprue, through which the streams of fluid from the pass-ages of said nozzle must pass in moving along the sprue to said cavity to increase mixing of said streams before they reach said cavity,

the portion of said sprue adjoining said chamber:

around said post opening into that chamber ina' direction generally along thewall of that cham her at a distance from the exit therefrom, whereby the streams of molding material entering that chamber will tend to swirl and eddy therein be-' fore reaching the outlet therefrom into the other part of the sprue.

7. 'In injection molding-apparatus, a mold body having therein a molding cavity and divided through said cavity into separable parts to provide for access to said cavity to remove molded objects, said body having a seat on the outer face of one of said parts and a sprue leading from said seat to said cavity, the other of said parts having a post extending into and along a portion of said sprue towardsthe entrance end of the latter, the periphery of said post beingspaced from the periphery of said sprue, said sprue having a portion thereof extending from adjacent the base of said post-along the surface of separation of said parts to said cavity, and a nozzle having a peripheral zone of its end face engaging against and removable from saidseat,

said nozzle having separate passages opening through the portion of its end face encircled by" said peripheral zone, said end face having at least a portion thereof between the discharge ends of said nozzle passages and between said passages and the entrance end of said sprue,

spaced from said seat to provide a channel conmeeting said sprue and said nozzle passages andexposed by separation ofsaid nozzle from said mold, said body also having therein at the sur face of, part and around the base of said post,'a'

chamber of greater cross sectional area than the adjoining zones .of said sprue, through which streams of fluid from the passages of said nozzle must pass in moving along the sprue to said cavity to increase mixing'of said streams before they reach said cavity, said chamber being annular in shape and approximately circular in cross section.

' THOMAS F.- STACY;

REFERENCES CITED The following references are, of record in the file of thispatenti UNITED STATES PATENTS Number Name Date 2,296,296 Shaw Sept. 22, 1942 2,300,759 Amigo Nov. 3, 1942 2,046,592 Tracy July 7, 1936 2,285,370 Staelin June 2, 1942 

